Modular Projection Systems and Wellness Studios

ABSTRACT

In some embodiments the invention concerning enclosures for conducting wellness activities, such as yoga, pilates, meditation and the like. In preferred embodiments the enclosure comprises at least one interior space and at least one mirrored wall that reflects images projected from one or more projector component into a curved, projection wall opposing the mirrored wall.

CROSS-REFERENCE TO RELATED APPLICATIONS AND PATENTS

This application is a continuation of U.S. patent application Ser. No.16/184,213, filed Nov. 8, 2018, which claimed the benefit of U.S.Provisional Application Ser. No. 62/583,236, filed Nov. 8, 2018, whichis hereby incorporated by reference herein in its entirety.

FIELD OF THE INVENTION

In some examples the present invention is useful, without limitation, inthe field of fitness and fitness classes such as yoga, pilates,stationary cycling, such as SPIN® type classes, as well as in meditationand devotional classes. In other examples or aspects of the invention,the invention may be associated with the visual arts, providing a widescreen, preferably an encompassing visual projection experience, inwhich one or more of a light, photographic, graphic, film, or videoimage may be projected so as to surround the viewer.

BACKGROUND AND SUMMARY OF THE INVENTION

The human concern with physical fitness is as old as prehistory, whenhunting for food required the ability to run long distances and enoughphysical strength to overcome prey, and when conflict with neighborsover food and other natural resources was often decided according to themaxim “survival of the fittest”.

Even after most humans no longer had to depend on strength to survive inthe wild, a concern for fitness persisted into the earliestcivilizations. The ancient Greeks formed public institutions called“gymnasiums” where young men received training in physical exercises,wrestling, boxing and ball games, and schooling in philosophy.

In China, the philosophical teachings of Confucius encouragedparticipation in regular physical activity. It was recognized by theancient Chinese that physical inactivity was associated with certaindiseases (referred to as organ malfunctions and internal stoppages,which sound similar to heart disease and diabetes) that were preventablewith regular exercise for fitness. Cong Fu (called Kung Fu in the West)was subsequently developed as a gymnastic program to keep the body ingood, working condition.

In India, yoga was developed first as a system of Hindu philosophy thatstrives to bring together and personally develop the body, mind, andspirit. Hatha Yoga, the form of yoga with which Westerners are mostfamiliar, is defined by a series of exercises in physical posture andbreathing patterns. Ancient Indian philosophers recognized healthbenefits conferred by yoga including proper organ functioning and wholewell-being. Additionally, meditation practices have been used in Indiaand throughout the ancient Far East for thousands of years to calm themind and provide physical, spiritual and emotional balance to thepractitioner.

In the United States, physical fitness has, until relatively recently,been an almost purely physical endeavor, involving sporting activitiessuch as track and field and ball games, competitions such as wrestlingand boxing, and weight and stamina training. Also, until recentlyphysical fitness has been a largely male activity in the United States.

Since the 1960's and 1970's a change began to take place in the U.S. andother Western countries, in which each of these two long-standing factsconcerning physical fitness has rapidly changed. The introduction ofBuddhist and Hindu spirituality and philosophy in the West as part ofthe “self-awareness” explosions of the 60's has resulted in more andmore Americans embracing yoga (hatha yoga), Tai Chi, and meditationpractices, as well as Chinese, Japanese and Korean martial artsdisciplines such as karate, Kung Fu, each of which has a strongspiritual and/or experiential component.

Furthermore, physical fitness itself has also become a far more commonand popular practice in the last 30 years than previously in Americanhistory. From 2005 to 2014 alone, the number of gym memberships rose22%. Furthermore, in 2014 gym membership rates in the U.S. were splitroughly 50:50 between men and women. The gym, fitness and health clubmarket is valued at around $27 billion annually in the U.S., while it isvalued at about $75 billion world-wide.

Additionally, physical fitness, meditation, spirituality, and holisticmedicine are today being practiced together under the umbrella term“wellness”. Wellness is a term coined in 1961 by Halbert L. Dunn in hisbook “High-Level Wellness” to mean “a state of complete physical, mentaland social well-being and not merely the absence of disease orinfirmity.” The so-called Wellness Movement incorporates alternativemedicine approaches to holistic health, physical fitness, yoga andmeditation in order to attempt for each person to reach their ownwellness state.

Wellness centers and studios, in which yoga, physical fitness (such as,without limitation, pilates, martial arts training, stationarybicycling, cardiovascular training and the like) and/or meditation canbe taught and practiced are now increasingly common.

Yogis use meditation for their quest to enter “Nirodha”, a state of mindthat is not distracted by random thoughts but is fully absorbed in theobject of focus. In the fitness world athletes have a different name fora similar phenomenon: athletes across a number of sports often refer to“the zone” to describe the desirable mental state in which awareness oftime is suspended, and in which a person is performing at peak oroptimal ability, a place of focus, achievement and fulfillment.

In order to create an immersive wellness experience some fitness andmeditation studios and centers use music, scent, choreography and/orprofessional instruction to enhance participants' concentration,training and/or practice and to aid them in reaching such a state ofmind.

Some fitness studios have included a visual component as well. Thus, onefitness studio combines knowledge of studio fitness with a 360° cinematechnology, which can also be used for live music performances. The Edgeof Fitness, addidias GamePlan A (Aug. 4, 2014) athttps://www.gameplan-a.com/2014/08/the-edge-of-fitness/. Participantsfind themselves surrounded by video content that projects onto threescreens of a purposefully built studio. People are immersed in the videocontent's perfect synchronization with music and the trainer'sinstructions, and can get into the zone, leaving their day-to-day lifebehind. Thus, participants taking part in a cycle class may findthemselves riding up an impossibly steep glacier or sprinting their wayaround a digital velodrome. In a dance class they might be experiencinga music festival where everybody is dancing together.

According to one article, a meditation studio in New York, Inscape,contains a meditation dome within the studio. Intermix Founder OpensMeditation Studio in NYC, Business Insider (Feb. 18, 2017) athttp://www.businessinsidencom/intermix-founder-opens-meditation-studio-in-nyc-2017-2/.Teachers greet guests in the front lobby area, which is set up like ayoga studio, with books and candles available to purchase, and withlockers and restrooms available in the rear. The meditation dome isentered through doors, and the curved roof of the dome is scalloped withgeometrical designs which interface with colored mood lighting. Thelighting can be adjusted during the meditation session to enhance themeditation experience. The dome thereby creates a space in which themeditation students can have a fruitful meditation experience withouteveryday distractions and separate from the outside world.

In a Milwaukee fitness studio, participants can choose from a variety ofimmersive experiences, such as cycling, kickboxing, yoga, and tai chi ona touch screen. Video images are then projected on a large curved screenusing technology developed by Surround Fit and Wellness in conjunctionwith the Marquette University virtual reality lab. Thus, for example,“instead of running a cycling class in February, you'll be ridingthrough a Hawaiian roadside synchronized with [a virtual] instructor.”Fit For You: Virtual Fitness, WUWM Milwaukee Public Radio website (May31, 2017) at http://wuwm.com/post/fit-you-virtual-fitness.

A Los Angeles yoga studio provides classes in which the practitionerspose and stretch amidst digital projections that encompass the entirefour walls of a heated room. Images include forests, marine life, andouter space to heighten the practitioner's senses for an immersive yogaexperience. Immersive Yoga Studios, TrendHunter® webpage athttps://www.trendhunter.com/trends/technology-and-yoga.

U.S. Patent Publication No. 2004/0000099 A1 discloses mood regulationenclosures including an interior space to contain a user, a closableaperture and physical barriers to effectively sensorily separate theuser from the outside environment; these enclosures can include displayssuch as cathode ray tube display screens, LCD displays and LED displays.

U.S. Patent Publication No. 2015/0114439 A1 discloses inflatableexercise chambers for performing exercise within.

U.S. Patent Publication No. 2016/0059105 A1 discloses a portable outdoorfitness studio for creating an outdoor workout space.

U.S. Pat. No. 6,126,551 discloses a rink and corridor recreationalfacility comprising movable partitions.

Korean Patent Publication No. 2014/0026095 discloses an interactive yogastudio for a practitioner to enjoy yoga alone without a lecturer whilewaiting for a flight in an airport. The studio comprises an outputdevice including a sound system for providing voice guidance or music.The output device may also include a projector and screen for receivinginformation, which may include a preprogrammed video, from a server anddisplaying the information on a screen.

Each and every patent, patent publication, and non-patent publicationcited in this specification is hereby incorporated by reference as partof the specification in its entirety.

SUMMARY OF THE INVENTION

The present invention is generally directed to wellness studios, roomsand enclosures, and methods of physically organizing a wellness centeror studio and conducting the business of a wellness center or studio.

By “wellness” is meant activities including, but not limited to, yoga,holisitic medicine, physical fitness (such as, without limitation,pilates, martial arts training, stationary bicycling, cardiovasculartraining and the like), massage, and/or meditation the practice of whichcan be enhanced by the practitioner's isolation from the thoughts,sights, and sounds of everyday life.

By “exterior wall” is meant that the wall at least partly defines andsurrounds an interior space of the enclosure and has at least oneexterior surface facing away from the enclosure.

By “internal wall” is meant that the wall forms a barrier within aninterior space of the enclosure and does not have an exterior surfacefacing away from the enclosure.

In one embodiment the invention may include an enclosure comprising acurved exterior wall comprising a projection surface (usually as theinterior surface of an exterior wall) forming at least part of theinterior surface or surfaces of the enclosure. Non-limiting examples ofthe plan view of such enclosures include circular, oval, Cassini oval,elliptical, or “pill shaped” floor plans, or semi-circular, semi-oval,semi-elliptical, semi-Cassini oval, or semi-“pill shaped” floor plans.The enclosures of the present invention may be used as, or in, awellness, yoga and/or exercise studio. In a plan view, the enclosure hasone or more wall segments comprising a mirrored wall and comprises aninterior space for participants to practice wellness activities; theinterior space is at least partially defined by a substantially opaque,substantially continuous wall having at least one interior surfacecomprising a curved projection surface for the projection of visualimages such as films, photographs, graphics, video and the like.

By “substantially continuous” is meant that a surface is continuous, oris continuous except for wall or surface component junctions, doors orother similar openings, and the like.

By “substantially opaque” is meant that light is not transmitted throughan object, or that the object transmits insufficient light for shapes onone side of the object to be identified by a person on the other side ofthe object.

By “projection surface” is meant any surface effective to display visualimages. A projection surface may preferably be designed to avoiddiscoloration of reflected, projected images. Very preferably theprojection surface comprises a reflective surface that may be eitheraluminized or a white surface with small glass beads (for highbrilliance under dark conditions). In some embodiments the projectionsurface may comprises a LCD or LED screen for the direct projection ofimages from, for example, a device containing a microprocessor, such asa computer, smartphone, DVD player or other such device.

In some embodiments the enclosure may have a roof. In other embodimentsthe enclosure may lack a roof. In some embodiments the roof or topportion of the enclosure may be substantially continuous andhemispherical or otherwise curved. In some embodiments part or all ofthe interior surface of the roof may compromise a projection surfaceagainst which one or more generally upward-facing projectors may projectvisual images such as moving images, photographs, graphics, and thelike. In some embodiments these visual images may be part of, or extend,the visual images projected against the curved interior projectionsurface of the exterior wall.

In a currently preferred embodiment, the enclosure is pill-shaped orelliptical in a plan view, comprising an interior space surrounded by asubstantially opaque, substantially continuous, exterior wall. Thus, theexterior wall of the enclosure comprises at least a part of the outlineof the “pill” or elliptical plan view shape of the overall enclosure.

The one or more wall segments comprising a mirrored wall comprise twoopposing surfaces; in some embodiments each opposing surface is mirroredand the wall segment is an interior wall. In other embodiments,particularly but not exclusively those in which the mirrored wallsegment comprises an exterior wall segment, only one opposing surface ismirrored.

For example, in one embodiment a mirrored wall lies between two pointson opposing interior surfaces of the exterior wall of the enclosure; ifthe enclosure is circular, the mirrored wall lies along a chord (such asa diameter) of the circle, and comprises an interior wall. In thisembodiment the exterior wall and the interior wall define two interiorspaces. In such case, each side (each opposing surface) of the interiormirrored wall may be mirrored.

In another embodiment of the invention, a circular enclosure is definedby a circumferential exterior wall. In this embodiment, three interiormirror walls project from the central point of the interior of theenclosure as radii, and are spaced 120° from each other around theexterior wall, with three interior spaces being defined from twointerior walls and the interior surface of the exterior wall. In thisembodiment both surfaces of each of the three interior mirrored wallsare preferably mirrored.

In is clear to one of ordinary skill that the floor plan and plan viewof a circular enclosure may be elongated along one axis to form acapsular, rounded rectangular, or stadium “pill” shape, thus increasingthe area of the interior space or spaces.

In another embodiment of the invention, the enclosure may besemicircular in plan view, and comprises a substantially opaque,substantially continuous exterior wall having at least one interiorsurface comprising a projection surface forming the arc of thesemicircle. A mirrored exterior wall forms the baseline of thesemicircle, wherein at least the internal surface of the mirroredexterior wall is mirrored. The two exterior walls thus form asemicircular interior space.

In preferred embodiments the invention is drawn to an enclosure, asdescribed herein, and a projector component capable of projecting visualimages on a curved projecting surface of the enclosure. As used herein,the term “projector component” means a light source which creates avisual image when the light is projected against a surface; the termmeans a single projector or an array of projectors. Very preferably, butnot always necessarily (as will be seen), the projector component islocated approximately equidistant from all, or a majority, of projectionsurfaces upon which an image is projected. The term “approximatelyequidistant” means, in this context, sufficiently equidistant so that animage projected against two sections of the projecting surface remainssubstantially focused in each of these sections without the need torefocus the projector lens.

Thus, in one preferred embodiment, the enclosure has a circular planview and the projector component is capable of projecting one or morevisual image around a 360° projecting surface on the inside surface ofan external wall. The projector component is also preferably elevated ata distance of about 7 feet or more, or about 8 feet or more, or about 9feet or more, or about 10 feet or more, or about 11 feet or more, ofabout 12 feet or more, or about 13 feet or more, of about 14 feet ormore, or about 15 feet or more above the floor of the enclosure.Furthermore, the location of the projector component in a plan view isat or near the center of the circumference of the exterior wallcomprising the projecting surface. The projector component may bestructured and designed to project “actual” images, such as (withoutlimitation) film, slides, or photographs. Alternatively, oradditionally, the projector component may be structured and designed toproject “virtual images” such as (without limitation) videotaped imagesor microprocessor-generated images, such an (without limitation) imagescontained on a computer, server, hard drive, cellular telephone, tabletdevice, video recording or playing device, and the like.

In currently preferred embodiments the projector component may comprisean array containing a plurality of linked individual projectors. Thenumber of protectors required can be calculated based on the distancefrom the projector to the projection surface and the area of theresulting projected visual image. In one embodiment a projectorcomponent comprises four individual projectors to project a singlecoherent, focused, 180° individual image around the circumference of asemicircular interior space (or eight projectors to project an image360° around a circular interior space. In this embodiment eachindividual projector may project an image having a size on theprojection surface of about 9-10 feet high and about 17 feet wide. Theimages can be made to overlap, thus creating a virtually seamless singleimage projected around the 180° semicircular projecting surface of thefirst interior space.

In this embodiment an interior mirrored wall intersects the center (orapproximate center) of the circle in plan view, thus bisecting thecircle into two interior spaces having equal semicircular areas boundedby the exterior wall. Preferably, the mirrored interior wall has amirrored reflecting surface on both interior surfaces of the wall. Inthis embodiment, when a visual image is projected by the projectorcomponent against the 180° semicircular projecting surface of the firstinterior space, the mirrored surface of the mirrored interior wallcauses the projected visual image to be reflected, and the projectedvisual image to surround a viewer within the first interior space in360°.

The projector component may be programmed or configured to projectdifferent images to a plurality of interior spaces separated by interiormirrored walls, so that the projected images on the projections surfacesof each interior space are reflected to surround the viewer.

In a preferred embodiment the exterior wall is about 9 feet tall orgreater, or about 10 feet tall or greater. The exterior wall maycomprise at least one door per interior space, and preferably comprisesat least two doors, to permit people to gain entry into the interior ofthe enclosure. By “door” is meant to include a door having hinges or anyother substantially opaque closure having a projection surface on itsinterior surface. When closed the door(s) may preferably besubstantially flush with the surrounding interior projection surface ofthe wall in order to maintain a relatively smooth, continuous projectionsurface without substantial distortion of the image when the door(s)is/are closed.

The projector component may be mounted above the exterior and interiorwalls. For example, in a preferred embodiment (as described above: inwhich the enclosure is circular in its plan view shape and a singleinterior mirrored wall has a mirrored reflecting surface on bothinterior surfaces of the wall and bisects the circle creating twoequally sized interior spaces) the projector may be mounted on, and beraised to a desired height directly above, the mirrored wall.

It will be understood that in other embodiments the enclosure may beoval, Cassini oval, elliptical, or “pill” shaped in plan view. In suchcases, the two-sided mirrored interior wall is preferably placed, forexample, at the midpoint between the curved lobes of the plan view,thereby creating two interior spaces of equal or approximately area andequal or approximately equal shape (or equal or approximately equalchiral shapes) with the projector component mounted above the mirroredinternal wall. In such cases the projection surfaces of the walls willnot be equidistant from the projector component, and the projector mayneed to be adjusted in order to account for the different distances ofthe projected image on closer and more distant projection surfaces.Standard formulae for making such adjustments include:

$W = {\left( \frac{\left( {I - f} \right)}{f} \right)w}$$I = {\left( {\frac{W}{w} + 1} \right)f}$$f = {I \div \left( {\frac{W}{w} + 1} \right)}$

in each case, where w is the projection aperture width; I is theprojection distance from projector lens surface to screen; W is theimage width; and f is the focal length of the lens.

If the projection surfaces of the walls are not equidistant from theprojector component, and if the projector component is a projector arraycomprising individual image projectors, each projector may beindividually focused and its projected image aligned with the otherprojected images of the other projectors in the array when it isinstalled.

In some embodiments the enclosures of the present invention may comprisea curved interior projection surface, for example as the interiorsurface of an exterior wall, and a mirrored exterior wall along the“baseline” connecting the two ends of the external wall having aninterior projection surface. Thus, for example, in one embodiment theenclosure comprises a substantially opaque, substantially continuousexterior wall having at least one interior surface comprising aprojection surface forming the arc of the semicircle. A mirroredexterior wall forms the baseline of the semicircle, wherein at least theinternal surface of the mirrored exterior wall is mirrored. The twoexterior walls thus form a semicircular interior space. In such aembodiment, the projector component may be structured to project one ormore visual image around the 180° semicircular projecting surface of thesemicircular interior space. The projector component may be placed at alocation above the midpoint of the mirrored exterior wall; in thisembodiment such placement ensures that the projector component isapproximately equidistant from the projection surface of the curvedexterior wall.

In other similar embodiments the enclosure may comprise a curvedinterior projection surface, for example as the interior surface of anexterior wall, and a mirrored exterior wall along the “baseline”connecting the two ends of the external wall having an interiorprojection surface, defining an interior space in the shape of, forexample, a half oval, a half Cassini oval, a half ellipse or a half“pill shaped” floor plan.

In enclosures having this type of plan view both the curved walls andmirrored walls are external. It will be understood that in such “halfsized” enclosures (including semi circular enclosures) internal mirroredwalls may also be employed. For example, a single straight double sidedmirrored wall may be placed at right angles to the mirrored exteriorwall, thus dividing the single internal space into two chiral interiorspaces of equal or approximately equal area. As with the “full sized”enclosures described above, the exterior wall may comprise at least onedoor per interior space to permit separate ingress to the internal spaceby clients and practitioners.

The enclosures may be built as permanent structures, or assemi-permanent or temporary, easily disassembled structures.Particularly when placed inside office space or other leased space, itmay be desirable that the enclosures may be easily disassembled.Furthermore, for use at temporary events, such as outdoor festivals,fairs, or other such events, a temporary enclosure may be desired.

Thus, depending on the desired use of an enclosure of the presentinvention, and the anticipated length of such use, the walls of theenclosure may be made of any suitable material consistent with such use.The walls may be rigid and made using one or more materials comprising,without limitation, wood, plaster, brick, masonry, sheetrock, polymericmaterials, composite materials or other conventional building materials.For example, the walls may be framed using wood and/or metal framing,then covered with lathe and plaster, sheetrock or another surfacingmaterial.

Alternatively, and preferably, for more lightweight and less permanentenclosures, the enclosures made be constructed using a framework, suchas a polymeric or metal framework. Currently preferred frameworks aremade using metal tubes, such as aluminum tubes and/or metallic, such asaluminum, flat bars. In embodiments in which the enclosure is containedwithin a room or other indoor space, the framework and/or the projectorcomponent may be wholly or partially mounted to the floor and/or ceilingof the indoor space. The exterior walls of the enclosure may be madeusing a lightweight but preferably rigid and opaque material, such as apolymeric material. A preferred polymeric material for wall constructionis a flexible polycarbonate/rubber blend, which may be provided as oneor more flexible panels and may be made opaque or translucent.

In some embodiments of the invention, an enclosure may be constructed tobe wholly or partially portable. For example, the enclosure may bemounted to a planar floor or platform having a plurality of wheelsmounted to the underside thereof. Such a portable enclosure may betransportable either as payload on a truck (such as a flatbed truck) ormay be made “towable” with a trailer-type hitch to be fastened to a caror truck for towing to a desired location, such as a festival, music orwellness-related event, farmer's market, fair or other such activity foruse over a particular length of time.

Preferably the projector component comprises an array of projectors,arranged in a circular, oval, Cassini oval, elliptical, or “pillshaped”, semi-circular, semi-oval, semi-elliptical, or semi-“pillshaped” shape. In some cases the outline of the projector componentfollows the pan view shape of the enclosure itself. Each projector maybe arranged to project a portion of an entire image, whereby, forexample, projectors on each side of a designated first projector mayproject visual images that continue to the right and left sides,respectively, of the image projected by the first projector. The entireimage may encompass an angle of 360°, 180° or any other desiredhorizontal breadth, and be made up of a plurality of individualprojectors.

The projector component may preferably be connected to an image source.The image source may reside on a memory storage device, such as, withoutlimitation, a flash drive (memory stick), camera (such as a digitalcamera output), video source, DVD, hard drive or the like. Preferablythe projector component is connected to a microprocessor, for example,as part of a network, by a directed wired connection, or by a wirelessconnection, on a digital device. The digital device may comprise aserver, desktop computer, laptop computer, tablet computing device,smartphone, media player or any other device containing a microprocessorand able to transmit digital images to the projector component.

Alternatively, the projector component may itself be structured to storeimage files and/or display visual images without the need to beconnected to a further image storage device.

Preferably the projector component is mounted at a level above theenclosure wall height on a ceiling of the enclosure of the presentinvention, on a ceiling of the room or space in which the enclosure isplaced, or on a framework element of the enclosure of mounted on a wallof the enclosure. The projector component may also or alternatively besuspended from the ceiling or a framework element by one or more cable.

In a particularly preferred embodiment, the projector component may, ina plan view, comprise a curved or circular housing located in a centrallocation above the enclosure, in which individual projectors areradially mounted as a projector array. When the enclosure issemi-circular, semi-Cassini oval, semi-oval, semi-elliptical, orsemi-“pill shaped” in plan view the projector component is preferablypositioned at a location approximately along an axis runningperpendicular to and midway along the mirrored exterior wall, and at alevel above this wall.

Such a housing generally may be shaped in plan view like a circular,Cassini oval, oval, elliptical or pill-shaped “flying saucer” or “UFO”.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 shows a view of an embodiment of a frame component for an ovalenclosure of the present invention.

FIG. 2 shows a view of the enclosure shown in FIG. 1 in which the framecomponent is covered with an exterior wall and, and comprises onemirrored interior wall.

FIG. 3A shows a view of the top cap of the oval enclosure of FIG. 1.

FIG. 3B shows a cross section of a manner in which the exterior wall ofthe enclosure of FIG. 2 may be sandwiched between curved sheets ofretaining material.

FIG. 3C shows a cross section of the exterior wall retained as shown inFIG. 3B between curved sheets of retaining material, in which a top capis placed.

FIG. 3D shows a cross section of the exterior wall retained as shown inFIG. 3B between curved sheets of retaining material, in which a bottomcap is placed.

FIG. 4A shows a view of an embodiment of an oval enclosure of thepresent invention, in which the enclosure is suspended from above bycable or cord elements.

FIG. 4B shows a cross section of an exterior wall of the embodimentshown in FIG. 4A, in which the wall is looped around frame componentsinserted at both the top and the bottom of the wall material.

FIG. 5 is a perspective view of a pill-shaped enclosure having a singleexterior wall and a mirrored interior wall, with a projector componentlocated above, and midway along, the length of the interior wall.

FIG. 6 is a perspective view of the pill-shaped enclosure shown in FIG.5, in which the reflection of the interior of one of the two internalspaces is depicted.

FIG. 7 shows a multichambered enclosure of the present invention, inplan view.

FIG. 8 shows a semi-“pill” shaped enclosure of the present invention, inoblique plan view.

FIG. 9 shows another embodiment of the enclosure of the presentinvention in which a hallway bisects the “pill-shaped” enclosure.

FIG. 10 shows a view along the hallway of an enclosure built within arectangular space, similar to that of FIG. 9.

FIG. 11 shows another embodiment of the enclosure of the presentinvention in which a doubly mirrored internal wall bisects the enclosureinto two equally-sized internal spaces.

FIG. 12A shows a rendering of another enclosure configuration, in whichtwo semi pill-shaped internal spaces each comprise an external wallhaving a mirrored internal surface, and have a hallway between them.

FIG. 12B is a rendering of an interior space in which a nature subjectis projected on the projection surface of the curved interior wallsthereof, and a mirror reflects the projected nature subject.

FIG. 13A is a schematic side view of an embodiment of a half-domeenclosure of the present invention.

FIG. 13B is a schematic plan view of an embodiment of a half-domeenclosure of the present invention.

FIG. 14A is a schematic side view of an embodiment of a dome-shapedenclosure of the present invention.

FIG. 14B is a schematic plan view of an embodiment of a dome-shapedenclosure of the present invention.

FIG. 14C is a schematic plan view of another embodiment of a dome-shapedenclosure of the present invention.

FIG. 15A is an oblique side view of a “tunnel” shaped enclosure of thepresent invention.

FIG. 15B is an oblique side view showing the frame of another embodimentof a “tunnel” shaped enclosure of the present invention.

FIG. 15C is a close-up of the frame of another embodiment of a “tunnel”shaped enclosure of the present invention.

FIG. 16A shows an example of a circular enclosure plan view, with ahallway defining two interior spaces.

FIG. 16B shows an example of a hexagonal enclosure plan view, with ahallway defining two interior spaces.

FIG. 16C shows an example of a roughly rectangular enclosure plan view,with a hallway defining two interior spaces.

FIG. 16D shows an example of a trefoil enclosure plan view, withhallways defining three interior spaces.

FIG. 17 shows another embodiment of the enclosure of the presentinvention, wherein the enclosure is formed within a room, by stretchinga fabric or sheet material between ceiling tracks and floor trackswithin the room.

DETAILED DESCRIPTION OF THE INVENTION

The present invention is generally directed to wellness studios, roomsand enclosures, and methods of physically organizing a wellness centeror studio and conducting the business of a wellness center or studio. Inpreferred embodiments, the invention is directed to wellness studios,rooms and enclosures comprising a mirrored interior wall.

In particularly preferred embodiments, the studio, room and enclosurecomprises a projector component which projects images against aprojection surface on the interior surface of one or more wall of aninterior space of the enclosure in a manner that causes the projectedimages to be reflected back to an observer within the interior space.Very preferably the wall upon which the projection surface is located iscurved. In particularly preferred embodiments, the enclosure iscircular, oval, Cassini oval, elliptical, or “pill shaped” floor plans,or semi-circular, semi-oval, semi-elliptical, semi-Cassini oval orsemi-“pill shaped”, with at least one interior space having asubstantially continuous wall comprising a curved projection surface forthe projection of visual images such as films, photographs, graphics,video and the like from the projection component. In this way, thereflection of the projected visual images have the same apparentcurvature as the walls upon which the images are projected. For example,if the interior space is semicircular, then the mirrored interior wallwould result in the illusion that the interior space was circular inshape, and images projected on the wall, particularly when the interiorspace is otherwise darkened, would provide an illusion of surroundingthe observer.

It will immediately be apparent to the person of ordinary skill basedupon this example that the enclosures, rooms and studios of the presentinvention may be constructed in numerous variations. For example, theenclosure may be made to have, without limitation, a semi-circular,semi-oval, semi-elliptical, or semi-“pill shaped” floor plan view. Such“half-sized” enclosures may also have a straight mirrored wall as abaseline (e.g., as a diameter of the full circle), to create theillusion of a fully circular interior space to an observer locatedtherein. In these cases, the mirrored wall may comprise an exterior wallof the enclosure, and one or more additional exterior walls (e.g.,having may comprise the curved portion of the plan view of theenclosure.

In less preferred embodiments the enclosures may comprise a mirroredinterior wall and non-curved projections surfaces on one or moreexterior walls. Thus, although enclosures according to the presentinvention having curved geometric plan views are preferred, in currentlyless preferred embodiments the floor plan of an enclosure according tothe present invention may comprise polygonal geometric elements, such asrectangular elements, triangular elements, pentagonal elements,hexagonal elements, heptagonal elements, octagonal elements, and thelike.

Not only may the curvature of the projection surfaces of the enclosurevary from the circular or semicircular to include other curvedsymmetrical and asymmetrical shapes such as (such as oval, Cassini oval,elliptical, or “pill” shapes or portions of these shapes (such as semicircular, semi-oval, semi-elliptical, or semi-“pill” shapes”), but theenclosures may be multi-lobed structures as well.

Additionally, in certain embodiments the shape of the enclosures may be“tunnel” shaped (such as an elongated arch structure similar to theshape of a Quonset hut), with a double-sided mirror dividing the sidesof the “tunnel into equal halves”. The tunnel may be closed at one orboth ends, either of which also may comprise a door. In such anembodiment the projectors are placed so as to project against the sidesof the tunnel structure, with the mirror reflecting the projectedimages. The tunnel structure may be made from any suitable material,including, without limitation, metal (such as contour track metal),polymer or wood may be used for the arch framing, and the covering alsomade using any suitable material, such as (without limitation)polycarbonate, dry wall, plywood, metal (such as a corrugated metalsheet) and/or stretched fabric or sheets of material.

In other embodiments the exterior outline of the enclosures may bedome-shaped, half-dome shaped, hemispherical, or semi-hemispherical. Inthe embodiments in which the enclosure is hemispherical, an interiorwall comprising a double-sided mirror (or two single sided mirrors) maybe located so as to divide the interior space of the dome into two equalinterior spaces. The interior wall comprising the mirror may appear inplan view as a line connecting diametrically opposed points on thecircumference of the circle and defining the footprint of the dome. Inother embodiments, two or more mirrored interior walls may intersect atthe center of the dome footprint, thus dividing the interior space intothree or more interior spaces shaped like halved sections of an orange.For example, two doubly mirrored interior walls, when observed in planview, may meet at 90° at the center of the circle circumscribed by thewalls of the dome, thus dividing the interior of the dome into fourequal internal spaces or volumes, wherein two of the walls of each suchinterior space are mirrored, and the curved exterior wall comprises aninterior projection surface. However, the angle between interiormirrored walls need not be 90° and the sizes of each interior volume orspace need not be equal.

Each internal space of this embodiment may be entered through a door,which may be formed, for example, in the external wall of the dome. Inthis embodiment, the projectors are placed overhead (for example, nearthe center of the dome) so as to project visual images against theinternal surface of the exterior walls of the dome segment(s) orinternal space(s), with the mirror(s) reflecting the projected images soas to form the illusion that each space is larger than it is. The domestructure may be made from any suitable material, including, withoutlimitation, metal (such as contour track metal), polymer or wood may beused for the arch framing, and the covering also made using any suitablematerial, such as (without limitation) polycarbonate, dry wall, plywood,metal (such as a corrugated metal sheet) and/or stretched fabric orsheets of material.

In yet another embodiment of the invention the enclosure can be formedwithin a room, for example, a hospital room by locating fasteners (suchas tracks, hooks, snaps, and the like) on or along the floor and ceilingthereof, and stretching a curtain, screen or fabric comprising aprojection surface between the floor and ceiling, preferably in a curvedalignment. Projectors may be located or suspended from the ceiling ormounted on a portable holder that may be positioned to project imagesagainst the projection surface. A mirror or mirrored film or fabric mayalso be stretched or erected substantially perpendicularly to the floorand ceiling to reflect the images projected on the projection surface.Such embodiments may be useful for creating temporary enclosures of thepresent invention at locations including schools, hospitals andworkplaces.

Furthermore, as another example, an enclosure of the present inventionmay have a floor plan comprising an architectural foil (a symmetricalrendering comprising a floor plan containing of arcs of otherwiseoverlapping circles that produce a series of cusps to make a lobe) inplan view such as trefoil (3 cusps), quatrefoil (4 cusps), cinquefoil (5cusps) or any other number of cusps. See e.g., Trefoil, Wikipedia(https://en.wikipedia.org/wiki/Trefoil); see also Foil (architecture),Wikipedia (https://en.wikipedia.org/wiki/Foil_(architecture); eachhereby incorporated by reference. Such multifoils may comprise an innerpolygonal chamber in the center formed from the intersection of straightmirrored walls which reflect visual images projected onto a projectionsurface of each cusp of the foil.

The enclosure may be permanent, semi-permanent, or temporary. Apermanent enclosure is constructed in a manner similar to that of anyother structure, having a floor and walls, and may be made using framingmaterials such as metal (e.g., aluminum or steel) components,reinforcements such as metal rebar, and/or wood. The walls may be madeusing, wood, plaster, brick, masonry, sheetrock, polymeric materials,composite materials or other conventional building materials. A freestanding enclosure of the present invention preferably has a roof, whichcan be, for example, flat, pyramidal, dome-shaped, tented, or rounded.In such case the roof can be made of any conventional building orroofing materials, canvas, a polymeric material, such as an opaquepolycarbonate.

Semi-permanent or temporary version of the enclosure can be used in twocommon circumstances. A semi-permanent enclosure may be constructedwithin a space located in an already-constructed building. Thus, incertain embodiments a wellness center may be located in a conventionalcommercial space or office building, with an enclosure according to theinvention installed within the commercial space, or within a room of thecommercial space, and a “store”, waiting area, and/or consulting roomslocated in one or more other area of the commercial space. In suchcases, often (but not invariably) the enclosure will not comprise aroof, and will be constructed in a manner that is relatively easilyinstalled and disassembled, as with most “build-outs” within commercialleased space. In some embodiments a free-standing frame may beconstructed using vertically extending support members, such as wooden,metallic and/or polymeric beams to support upper and lower curvedwooden, metallic and/or polymeric flat arcs (which may be provided in anumber of segments). Preferably the support members and top and bottomarcs are made of aluminum, for light weight and strength. The projectionscreen and/or wall material is preferably made from a lightweight opaqueor non-transparent polymer, and is preferably flexible. This can besecured to the frame by any suitable method; for example, the projectionsurface may be sandwiched between the top and bottom metallic and/orpolymeric arcs. The sandwiched wall material may also be retained inplace by any suitable methods, such as by using bolts through holes inthe projection screen and/or wall material, or by a clamp incorporatedinto top and/or bottom metallic caps and tracks.

In another embodiment the enclosure may be supported in an alternatearrangement without support members. In this embodiment the top andbottom curved metallic and/or polymeric arcs are inserted into loopsformed at the top and the bottom of a flexible projection screen and/orwall material, like a curtain rod. The walls are preferably made from alightweight opaque or non-transparent polymer. A plurality of cables,wire or lines are connected at one end to the top metallic and/orpolymeric arcs through holes in the loops of the top edge of theprojection screen and/or wall material. The cables are then connected attheir other end to the ceiling or other structure above the enclosure.

In preferred embodiments, at least one straight, doubly mirroredinternal wall is positioned and secured on either side of the enclosure,to define at least two internal spaces within the enclosure. In otherembodiments a singly mirrored wall may be used to define at least oneinternal space. The mirrored wall(s) may, in less preferred embodimentsalso be comprised of a flexible material such as that of the exteriorwalls.

In enclosures in which a doubly mirrored wall transects the enclosuredefining two or more internal spaces, it is particularly important thatthe doubly mirrored wall(s) are opaque and will not permit light tobleed from one internal space to another. Additionally, it is desirablethat the mirrored surfaces of the mirrored interior wall(s) reflect theprojected visual images from the projection surfaces on the walls of aninterior space without significant distortion. Thus, in a preferredembodiment the mirrored interior wall(s) may be made from a rigid,preferably lightweight material, such as a polymeric foam to whichmirrored full length sections are secured on each side. The wallmaterial may be joined at the top (or top and bottom) to the opposingsides of the top and bottom curved metallic and/or polymeric arcs; forexample by bolting.

The walls of the enclosure are typically from about 9 feet to about 10feet high. In one embodiment of a “pill” shaped enclosure, the interiordoubly mirrored wall is 30 feet in length, and is placed midway between(e.g., 20 feet from) each of the two curved ends of the exterior wall.

One or more doors may be designed into the enclosure by includingmetallic and/or polymeric supports with hinges, to which thepreassembled doors may be hung. Preferably, the interior surface of thedoor comprises a projections surface. Additionally, preferably the doorsare designed to be substantially flush with the remainder on theprojection surface in order to minimize distortion of the projectedimages.

In another preferred embodiment an enclosure of the present inventionmay comprise a generally circular, oval, Cassini oval, elliptical, or“pill” shape in plan view, in which a passageway bisects the interiorspace of the enclosure into two separate, preferably equally sizedinterior spaces. In this embodiment the passageway comprises a wall oneither side thereof; each wall has an exterior surface facing thepassageway, and an interior surface facing one of the interior spaces.In some cases one or both walls may have a door defined within. In otherembodiments, the exterior wall of the enclosure may have a door openingdefined for each interior space. The interior surface of each passagewaywall is preferably mirrored. Such configurations are depicted in e.g.,FIGS. 9 and 10.

In some embodiments the exterior wall may consist of a projectionmaterial; such as a polyvinyl chloride (PVC) front projection screen, aPVC 3-D silver projection screen or a Lycra®/cotton blend stretchfabric. In other embodiments the exterior walls of the enclosure maycomprise a polyvinyl chloride (PVC) front projection screen material, aPVC 3-D silver projection screen material or a Lycra®/cotton blendstretch fabric, for example as a lining secured on the interior surfaceof a flexible polycarbonate sheet.

In a currently particularly preferred embodiment, the projectorcomponent may, in a plan view, comprise a curved or circular housinglocated in a central location and suspended or located at a height abovethe walls of the enclosure, in which individual projectors are radiallymounted as a projector array and wirelessly or hard wired to a networkremote production computer controlling the overall image projectionamong the projector array.

When the enclosure is semi-circular, semi-Cassini oval, semi-oval,semi-elliptical, or semi-“pill shaped” in plan view the projectorcomponent is preferably positioned at a location approximately along anaxis running perpendicular to and midway along the mirrored exteriorwall, and suspended or located at a level above this wall.

Such a housing generally may be shaped in plan view like a circular,Cassini oval, oval, elliptical or pill-shaped “flying saucer” or “UFO”.In one embodiment for a circular enclosure having a diameter of 40 feet,the area of the enclosure is about 1,250 feet, and the circumference ofthe enclosure is about 125.7 feet. The exterior walls of the enclosureare 10 feet high. The desired image is approximately 9′ 10″ high, and17′ wide. Thus, with some overlap between edges, 8 projectors would berequired to project an image around the circumference of the enclosure.Using a 0.8 lens, each projector in the projector array may be about13′6″ from the center of the circle in order to throw a projected imagethat will fill the projections surface at an acceptable brightness.

In other embodiments, individual projectors may be mounted on orsuspended from the ceiling proximate the inside circumference orperimeter of the projection surface, and wirelessly or hard wired tonetwork remote production computer controlling the overall imageprojection among the projector array. Such projectors may be “ultrashort throw” projectors (which must be mounted relatively close (e.g.,about 60 cm) to the projection surface, “short throw” projectors whichmay be mounted about 90cm to about 100 cm or so from the projectionsurface, or longer throw projectors, which may be mounted 2 m or morefrom the projection surface.

Preferably the projectors each have a brightness capacity of about 4000lumens or more, or about 5000 lumens or more, or about 5500 lumens ormore, or abut 6000 lumens.

In some embodiments the projectors in a projector array may be assignedto project 2 or more different images simultaneously. Thus, for examplein a circular enclosure having an doubly mirrored interior wall equallydividing the enclosure into two interior spaces, the projectorsilluminating the projection surfaces of one interior space may becoordinated to project one visual image, and the projectors illuminatingthe projection surfaces of the other interior space may be coordinatedto project a different visual image. In some embodiments a singleprojector array may be configured to project 3 or more or 4 or moreimages, or 5 or more images simultaneously. Furthermore, in certainembodiments, particularly (but not exclusively) those involvingmultifoil enclosure floor plans and/or larger enclosures, the enclosuresof the present invention may comprise more than one projector array.

In some embodiments the enclosure may be portable, to be used atfestivals, outdoor events, conventions, fairs, promotional events, andthe like. For such uses, including outdoor uses, the enclosure may incertain cases comprise a roof to enhance sensory isolation from theoutside world and lessen the possibility of distraction. Such enclosuresmay be constructed modularly in a manner similar to a semi-permanentenclosure, with a frame comprising support beams, pre-fabricated doorsand door frames and/or a cable system, thus permitting the enclosure tobe erected and disassembled quickly and easily.

Alternatively, the enclosure may be constructed as a permanent structurewith wheels, such as a trailerable enclosure, which may be transportedfrom location to location.

In some embodiments the enclosures of the present invention are alsoequipped with humidifiers, heaters, scent generating means (such as,without limitation, incense burners and essential oil dispersers), suchas flavored or unflavored mist generators, fans to generate a breeze,audio equipment comprising one or more speakers to generate sounds, suchas natural sounds such as waterfalls, rain, thunder, jungle sounds,beach sounds, bird calls, the ringing of devotional bells, musicalsounds such as flutes, Indian music, relaxing guitar, zither andclassical sounds, and the like.

The Examples that follow provide further disclosure concerning theinvention; however the invention is not limited by the examples, and isdefined by the claims that conclude this specification.

EXAMPLES

FIG. 1, depicts a free-standing frame 101 for one embodiment of theenclosure of the invention. In this embodiment, a circular enclosure isshown; those of ordinary skill in the art will recognize that a framestructure as depicted in FIG. 1 can be altered to define an ellipticalshape, an oval shape, a pill shape, a Cassini oval shape or any otherdesired shape, preferably having continuously curved opposing endsand/or sides.

The free-standing frame comprises support vertically extending supportmembers 103, and top and bottom metallic arcs (105 and 107,respectively). Preferably the arcs are made of aluminum tubing oraluminum flat bars, but may be made of carbon fiber, steel, a strongrigid polymer or the like. Similar materials make up the door frameassembly of the frame 111, which also acts as a vertically extendingsupport element. As shown, the vertically extending support members 103and door frame assembly 111 supports are positioned approximately 90°from each other around the circumference of the frame.

Those of skill in the art are aware that a greater or lesser number ofsupport members/assemblies 103, 111 may be used, and spacedapproximately equally around the circumference of the enclosure frame tomaximize stability of the frame. These elements are secured to the topand bottom arcs 105, 107, by any effective means, for example usingbolts. Additionally, the top and bottom arcs themselves may comprisesegments which are assembled at the site of installation, again bysecuring together, such as by bolting or insertion of a male end of onearc segment into the female end of an adjoining arc segment.

Similarly, a preassembled mirrored interior wall 109 is shown in FIG. 1as installed as part of the frame; this wall provides transversestability to the enclosure, and is secured by any effective means.Preferably the wall is into place on the top and bottom metallic arcs.In other embodiments, the preassembled wall may be replaced with a top(or a top and bottom) transverse support component to which a mirroredwall may be subsequently secured as will be described, for example, withrespect to FIG. 2.

Turning now to FIG. 2, the enclosure is now shown with walls in place.Again the vertically extending support components 103 and door assembly111 are shown. The exterior facing wall material 115 is shown, as is theinterior projections surface of the walls 119. Preassembled doors 117are connected to the door frame assembly 111 by hinges 113 which arescrewed or bolted into prepared positions in the door frame assembly. Asshown in FIG. 1 and FIG. 2, this enclosure has two doors, one for eachof the two equally sized interior spaces 121 and 123 created by themirrored interior wall 109.

FIG. 3A shows a close up of the top metallic arc 105 shown in FIG. 1 andFIG. 2.

FIG. 3B is a cutaway drawing depicting one manner in which the wallmaterial may be secured at the top metallic arc by being sandwichedbetween two curved flat metallic bars 125 and 125′. In this case a bolthole is drilled in each of the two metallic arcs 11, as well as in thewall material 115. Preferably the holt hole in the wall material (notshown) is reinforced to prevent wear and tear from repeated use. Thewall material may be retained at the bottom of the frame assembly in thesame manner.

FIG. 3C is a cutaway drawing depicting another way in which the wallmaterial may be secured at the top metallic arc by being sandwichedbetween two top curved flat metallic bars 125 and 125′. In this case acap component 129 having a curvature matching that of the curved flatmetallic bars 125 and 125′ has a slot 131 having a width greater thanthat of the two bars, such that the wall material 115 may be retained byfriction within slot 131 when the cap component is placed over thecombined thickness of the curved flat metallic bars with the wallmaterial sandwiched between. The cap 129 may also comprise a screw hole133 permitting a retaining screw to be tightened to secure the wallmaterial to the frame.

Similarly, FIG. 3D shows a cutaway of the base of the wall, wherein twobottom curved flat metallic bars 137 and 137′ sandwich wall material 115and are then placed into a boot 135 comprising a slot 139. The slot issized to accommodate the combined width of the wherein two bottom curvedflat metallic bars 137 and 137′ sandwich wall material 115. Preferably,boot 135 has a flat bottom. Although cap 129 and boot 135 are shown asdifferent elements, those of ordinary skill will appreciate that foreconomy and simplicity, boot 139 may be used as both a cap and a boot inthe same enclosure frame assembly.

FIG. 4A shows an alternative view of a frame assembly 401, in which top405 and bottom 407 curved arcs are not supported by vertically extendingsupport components, as shown in e.g., FIG. 1. Rather, in this case thetop metallic arc is suspended horizontally from the ceiling or anoverhead frame (not shown) by a plurality of cables 421. As in FIG. 1,the top and bottom arcs themselves may comprise segments which areassembled at the site of installation, again by securing together, suchas by bolting or insertion of a male end of one arc segment into thefemale end of an adjoining arc segment. Also as in FIG. 1, mirroredinterior wall 409 is placed in position and secured to the top andbottom arcs.

In FIG. 4A the wall material 415 is shown already installed. The wallmaterial 415 is made to form tubular loops or sleeves (see FIG. 4B) atits top and bottom through which the top and bottom metallic arcs may beinserted, like a curtain rod through the tubular sleeves. holes 413 areformed at substantially equidistant positions around the top of the toparc in the tubular sleeves of wall material to provide a way to securethe cables 421 to the top metallic arc. Each cable 421 may be secured tothe arc by any suitable means. For example by using a turnbuckle and/orusing a hook on the cable end and a hook in the top metallic arc, orball in slot connectors and the like. Preferably the holes arereinforced to resist fraying or other damage to the wall material at thetop of the top curved arc.

Turning now to FIG. 4B, a cross-section through the exterior wall of theenclosure shown in FIG. 4A reveals the top 423 and bottom 427 metallicarcs, and the corresponding top sleeve 425 and bottom sleeve 429, withthe bulk of the wall material 415 falling between the top and bottomarcs (405 and 407, respectively).

FIG. 5 is a top perspective view of a pill-shaped enclosure 501 of thepresent invention, with a projector component “UFO” housing 503 and asingle doubly mirrored wall 515 dividing the interior space into twoequal halves; 505 and 513. In the left interior space 505 a yoga classis underway, with yoga mats and single instructor visible. Theprojection surface of this interior space is shown 509 with abstractdesigns being projected thereupon by the projector component. Themirrored surface 503 of the mirrored wall 515 is shown reflecting theimage of the yoga instructor and mats from this perspective.

In the right interior space 513 another yoga class is underway withmultiple students visible, without yoga mats being present. A differentvisual image, comprising astronomical images (galaxies, moons, planetsand stars) is being projected from the projector component onto theprojection surface 511 of the right interior space.

FIG. 6 is a shallower view of the right interior space shown in FIG. 5as reference numeral 505. In this view the mirrored wall 603 reflectsthe yoga instructor, mats, and interior projection surface 607 ofexterior wall 611. The projector component 609 is shown suspended abovethe mirrored wall.

FIG. 7 is a depiction of a multichambered enclosure of the presentinvention, in plan view. Projector component 709 is configured to becapable to projecting visual images onto projection surfaces of 4different interior spaces (709, 711, 713 and 715). Interior wall 707 issingly mirrored, while interior walls 705 are doubly mirrored. Exteriorwalls 703 have projection surfaces onto which visual images may beprojected by the projection component 709.

FIG. 8 is a oblique view of a semi-“pill” shaped enclosure 801, in whichexterior wall 803 is supported by frame supports 811 and door frame 805.Door 813 provides access to interior space 819. Exterior mirrored wall807 may be formed as described in FIG. 2 and FIG. 3A-D, and joined to amirrored surface of the interior surface of exterior wall 807. Inanother embodiment, the exterior mirrored wall may comprise a wall of anoffice or building space, such as a room with a polygonal floor plan,upon an interior surface of which a mirror or other reflective surfaceis applied; the term “exterior” wall is meant to apply to mirrored wallconfigurations as shown in FIG. 8 as well as in semi-circular,semi-oval, semi-elliptical, semi-Cassini oval, or semi-“pill shaped”floor plans.

Visual images are projected from a projector component 809 onto theinterior projection surfaces 805 of the exterior wall 803. The projectorcomponent is suspended, preferably above the height of exterior wall803, by cables joined to the ceiling. In other cases the projectorcomponents 809 may be mounted to the exterior wall 807 by cables 817.

FIG. 9 depicts a schematic representation of another embodiment of theenclosure of the present invention. In this case the pill-shapedenclosure 901 is contained within a rectangular space 903. A passagewayor hallway 905 bisects the enclosure; hallway walls 907 define twochiral interior spaces 913. A central circular “UFO” structure 911suspended from the ceiling contains lights 915 and projectors (notshown); additional projectors 909 are also suspended above head level,and face the interior projection surfaces 917 of each interior space913.

FIG. 10 shows an example of the embodiment of FIG. 9, wherein hallway1001 comprises hallway walls 1003, defining two chiral interior spaces1005. Doors 1009 are located in exterior walls 1007 which also haveinterior projection surfaces 1013. Interior sides (not shown) of hallwaywalls 1003 comprise a mirrored surface. Projectors 1011 are mounted fromthe ceiling.

FIG. 11 depicts another embodiment 1101 of the enclosure of the presentinvention, in which as doubly mirrored dividing wall 1103 defines chiralinterior spaces 1105. Internal projection surfaces of exterior walls1109 reflect projected images from overhead projectors 1107 mounted in aprojector array. 1113. The entire enclosure is contained within arectangular room 1111.

FIG. 12A shows a rendering at ceiling level of a rectangular roomcontaining two semi-pill shaped interior spaces 1203 with a hallway 1201between them. Each of the enclosures 1203 comprises a mirrored internalsurface of an exterior wall 1207, and a projection surface 1205 uponwhich is projected nature scenes from projectors 1209 and “UFO”projector array 1211.

FIG. 12B shows a view from ground level within one of the semi-pillshaped interior spaces 1203 of FIG. 12A.

FIG. 13A shows a side view and FIG. 13B shows a plan view schematic of ahalf dome enclosure 1301. The vertical frame of the half dome may bemade using a steel contour track material, as shown (1307) which may becustomized to any size. Horizontal spreader members 1309 may comprisemetallic members as well. However, in other embodiments the framemembers may be made of a polymer or wood. And horizontal spreader frameelements may not be present in certain embodiments. The exterior surfaceof the enclosure 1305 may be made of any suitable material, includingpolycarbonate, thin dry wall, plywood, fabric, sheet metal, and thelike. A mirrored wall 1303 forms one side of the half dome enclosure. Insome embodiments one or more additional singly or doubly mirroredinterior walls 1311 may subdivide the interior space of the enclosureinto two or or more separate volumes 1315.

FIG. 14A shows a side view and FIG. 14B shows a plan view schematic ofan embodiment of a dome enclosure 1401. As with the half dome enclosuresshown in FIGS. 13A and 13B the frame may be made using a steel contourtrack material, which may be customized to any size. Horizontal spreadermembers may comprise metallic members as well. However, in otherembodiments the frame members may be made of a polymer or wood.Horizontal spreader frame elements may not be present in certainembodiments. The exterior surface of the enclosure 1405 may be made ofany suitable material, including polycarbonate, thin dry wall, plywood,fabric, sheet metal, and the like. A mirrored wall 1403 bisects formsone side of the dome enclosure. In some embodiments one or moreadditional singly or doubly mirrored interior walls 1407 may subdividethe interior space of the enclosure into three or or more separatevolumes 1409. FIG. 14C shows a plan view of an embodiment in whichmultiple interior volumes 1409 are created using multiple additionalsingly or doubly mirrored walls 1407. Projectors and/or projector arrays(not shown) are generally centrally located, and project visual imagesagainst the interior-facing projection surfaces of the exterior domewall.

FIG. 15A is an oblique side view of a “tunnel” shaped enclosure 1501comprising a double mirrored interior wall 1503 running lengthwise alongthe interior of the tunnel, and dividing the tunnel into separateinterior spaces. The enclosure has a fabric exterior “wall” covering1507, which may be erected over a wire or metal frame 1509. Projectorsor projector arrays (not shown) are aligned to project visual imagesagainst the interior projection surfaces of the exterior tunnel wallcovering 1507.

FIG. 15B is an oblique side view showing the frame of another embodimentof a “tunnel” shaped enclosure 1501 comprising a double mirroredinterior wall 1503 running lengthwise along the interior of the tunnel,and dividing the tunnel into separate interior spaces. The frame of thetunnel may be made using a steel contour track material 1505 erectedover horizontal metal slatting 1513. As before, projectors or projectorarrays (not shown) are aligned to project visual images against theinterior projection surfaces of the exterior tunnel wall covering.

FIG. 15C is a close-up of the frame of another embodiment of a “tunnel”shaped enclosure comprising a double mirrored interior wall 1503 runninglengthwise along the interior of the tunnel, and dividing the tunnelinto separate interior spaces. This framing comprises a contour trackmetal frame 1505 joined by horizontal metal spacers 1511.

FIG. 16A shows an example of a circular enclosure plan view, with ahallway 1603 bisecting the circular enclosure and creating two interiorspaces 1601, and having a mirrored surface facing the interior of eachinterior space 1601.

FIG. 16B shows an example of a hexagonal enclosure plan view, with ahallway 1603 bisecting the enclosure and creating two interior spaces1601, and having a mirrored surface facing the interior of each interiorspace 1601.

FIG. 16C shows an example of a roughly rectangular enclosure plan view,with a hallway 1603 bisecting the enclosure and creating two interiorspaces 1601, and having a mirrored surface facing the interior of eachinterior space 1601.

FIG. 16D shows an example of a trefoil enclosure plan view, with ahallway 1603 creating three interior spaces 1601, and having mirroredsurfaces facing the interior of each interior space 1601.

FIG. 17 shows yet another embodiment of the enclosure of the presentinvention, wherein the enclosure is formed within a room, by locatingceiling tracks 1703 and floor tracks 1705 within the room, thenstretching a curtain, screen or fabric 1707 comprising a projectionsurface between the floor and ceiling, preferably in a curved alignment.Projectors may be located or suspended from the ceiling or mounted on aportable holder that may be positioned to project images against theprojection surface. A mirror or mirrored film or fabric may also bestretched or erected substantially perpendicularly to the floor andceiling to reflect the images projected on the projection surface.

To the extent that a plurality of inventions are disclosed herein, anysuch invention shall be understood to have disclosed herein alone, incombination with other features or inventions disclosed herein, orlacking any feature or features not explicitly disclosed as essentialfor that invention. For example, the inventions described in thisspecification can be practiced within elements of, or in combinationwith, other any features, elements, methods or structures describedherein. Additionally, features illustrated herein as being present in aparticular example are intended, in other examples of the presentinvention, to be explicitly lacking from the invention, or combinablewith features described elsewhere in this patent application, in amanner not otherwise illustrated in this patent application or presentin that particular example. The scope of the invention shall bedetermined solely by the language of the claims.

Thus, the various descriptions of the invention provided hereinillustrate presently preferred examples of the invention; however, itwill be understood that the invention is not limited to the examplesprovided, or to the specific configurations, shapes, and relation ofelements unless the claims specifically indicate otherwise. Based uponthe present disclosure a person of ordinary skill in the art willimmediately conceive of other alternatives to the specific examplesgiven, such that the present disclosure will be understood to provide afull written description of each of such alternatives as if each hadbeen specifically described.

What is claimed is: 1) An enclosure comprising a mirrored wall, saidmirrored wall joining two lateral walls of said enclosure and comprisinga front side of a first compartment defined by said mirrored wall and afirst projection wall of said first compartment, said first projectionwall having an interior surface and including and continuously joiningsaid two lateral walls and further comprising a smoothly curved backwall lacking angles; wherein said interior surface comprises aprojection screen material; and an image projector structured to projectan image on the interior surfaces of the back wall of the projectionwall. 2) The enclosure of claim 1 wherein said enclosure has a circularfloor plan and said mirrored wall forms a diameter segment bisectingsaid floor plan and defining said first compartment and a secondcompartment; said first compartment and said second compartment eachhaving a semicircular floor plan. 3) The enclosure of claim 1 whereinsaid enclosure has a semicircular floor plan and said mirrored wallforms a diameter segment comprising a back wall of said enclosure. 4)The enclosure of claim 1 wherein said enclosure has a floor planselected from the group consisting of an oval floor plan and a roundedrectangular floor plan, and herein said mirrored wall divides said floorplan and defines said first compartment and a second compartment; saidsecond compartment defined by said mirrored wall and a second projectionwall of said second compartment; said second projection wall having aninterior surface and including and continuously joining said two lateralwalls of the second compartment and further comprising a smoothly curvedback wall of the second compartment lacking angles; wherein saidinterior surface comprises a projection screen material. 5) A workspacecomprising a rectangular room containing the enclosure of claim
 1. 6)The enclosure of claim 2 wherein said mirrored wall is mirrored on bothsides and wherein said second compartment is defined by a secondprojection wall of said second compartment; said second projection wallhaving an interior surface and including and continuously joining saidtwo lateral side walls of the second compartment and further comprisinga smoothly curved back wall of the second compartment lacking angles;wherein said interior surface comprises a projection screen material;and said image projector is structured to project an image on theinterior surfaces of the back wall and two lateral walls of theprojection wall of the second compartment. 7) An enclosure comprising afirst wall comprising a mirrored surface and a second wall opposing saidfirst wall and comprising a curved internal projection surface definingand at least partly surrounding a first internal space therebetween,said enclosure further comprising one or more image projector locatedwith said internal space and configured to project a visual imageagainst the curved projection surface. 8) The enclosure of claim 7wherein said one or more image projector is directly or directlysuspended from a ceiling. 9) The enclosure of claim 7 wherein said oneor more image projector projects a visual image selected from the groupconsisting of a static photographic image, a static graphic image, avideo image, a moving photographic image, a moving graphic image, and afilm image against said curved projection surface. 10) The enclosure ofclaim 7 having a footprint in plan view that comprises a substantiallyrectangular, circular, oval, Cassini oval, elliptical, “pill shaped”,foil shaped, semi-circular, semi-oval, semi-elliptical, semi-Cassinioval, semi-“pill shaped”, or semi-foil shaped floor plan. 11) Theenclosure of claim 7 wherein said second wall comprises a flexiblematerial retained by and stretched between fasteners on or near a floorand a ceiling of said enclosure. 12) The enclosure of claim 11 whereinsaid mirrored first wall comprises a flexible material retained by andstretched between fasteners on or near a floor and a ceiling of saidenclosure. 13) The enclosure of claim 7 further comprising a third wallcomprising a mirrored surface and a fourth wall opposing said third walland comprising a curved internal projection surface defining and atleast partly surrounding a second internal space therebetween, saidenclosure further comprising one or more image projector located withsaid internal space and configured to project a visual image against thecurved projection surface. 14) The enclosure of claim 13 wherein thefirst wall and the third wall are the same wall having a mirroredsurface on each side thereof. 15) The enclosure of claim 14 having adome or semi-dome shape, wherein the second and fourth walls are thesame wall, and the enclosure comprises at least one additional wallhaving a mirrored surface on both sides thereof and at least a thirdinternal space. 16) The enclosure of claim 13 wherein said second walland said fourth wall are each curved from bottom to top and are joinedat their upper ends to form a tunnel-like structure comprising, with thefirst wall and the third wall each being substantially parallel to abottom portion of said second wall and a bottom portion of said fourthwall, and aligned lengthwise along said tunnel-like structure betweensaid first internal space and said second internal space. 17) Theenclosure of claim 16 wherein the first wall and the third wall are thesame wall having a mirrored surface on each side thereof. 18) Theenclosure of claim 7 further comprising one or more features selectedfrom the group consisting of a humidifier, a heater, a scent generatingmeans, a flavored or unflavored mist generator, a fan, and audioequipment.